The fool-proof plant efficient and rapid propagation technology of "sticking leaves into the soil to turn them into seedlings" has caused a sensation in the industry. This leaf propagation technology (leaf cutting technology), also known as plant non-test tube cloning rapid propagation technology, has opened a new era of low-cost, large-scale, factory-based, and high-speed rapid propagation of plant seedlings.

The following is a set of extremely precious photos specially taken by Teacher Luo Caiyi, which vividly show the morphological characteristics of each stage of turning leaves into seedlings using the fool-proof plant efficient and rapid propagation technology:

Figure 1.

 

 

Figure 2

 

 

Among them, as shown in Figure 1, from right to left, we can clearly see: a leaf (no bud, not one leaf and one bud) → formation of bruised tissue (commonly known as sarcoma) → roots grow out of the bruised tissue → buds grow out of the bruised tissue → buds grow into seedlings → seedlings grow further and become the large seedlings on the far right as shown in Figure 2. The entire rapid propagation process is over.  The fool-proof plant efficient rapid propagation technology is the most advanced plant seedling rapid propagation technology at present. It uses a leaf, half a leaf , a bud, a branch, or a bowl-thick trunk of a plant, etc., through technical processing and full computer automation control, so that it can take root and sprout into seedlings. Generally, plants take root in 4-18 days, reproduce 6-18 generations per year, and the regenerated seedlings are strong, bloom and bear fruit early, and there is no mutation in the offspring. It is widely used in seedlings, flowers, fruit trees, vegetables, medicinal materials, etc. This new plant non-test tube cloning technology has simple facilities, strong practicality, and is easy to learn and operate. Generally, 400-1000 plants can be propagated per square meter per batch, and 450,000-650,000 plants can be produced per mu. Annual production can produce 12-40 batches per year, and the yield per mu can reach 4.5-25 million plants. The cost of each seedling is only a few cents to a few cents.

Luo Caiyi shows the rapid propagation process of Magnolia grandiflora and Magnolia grandiflora and the rooting and seedling formation  

Magnolia, also known as white magnolia, magnolia, magnolia flower, jade tree, Wangchunhua, Yingchunhua, Yutangchun, etc. No matter what name it is called, including Magnolia grandiflora, it can be quickly propagated by leaves or branches (hard branches or tender branches) using the fool-proof plant efficient and rapid propagation technology.

Among them, take magnolia branches ranging from 1 to 3 meters in length, as shown in the following group of pictures:

 

 

 

Note: The bundle on the far left in the picture is osmanthus branches.

 

 

After being processed by the fool-proof plant efficient and rapid propagation technology, as shown below:

 

After that, insert it into the seedbed. After half a month, the bottom of the branch begins to take root. After about 45 days, the bottom of the branch forms an explosive root system and can be moved out of the greenhouse to the outdoor nursery.

  

  

Description: Using the fool-proof plant efficient and rapid propagation technology to propagate magnolia, with 2-meter-long branches as the mother parent, after about 45 days of cultivation, it becomes a magnolia seedling over 2 meters tall, which is extremely fast. And it can be propagated all year round, regardless of season or region. For nurseries with a relatively rich source of mother parents (that is, magnolia long branches) (i.e., a certain scale), it is an excellent way to solve the problem of large-scale efficient and rapid propagation of magnolia seedlings. 

Red maple is an important garden color leaf tree species, and is also a famous leaf species among many maple trees, including American red maple, Japanese red maple, Japanese maple, Japanese maple, autumn flame, etc., which can all be quickly cultivated using the fool-proof plant efficient rapid propagation technology invented by Chongqing farmer scientist Luo Caiyi (also known as plant rapid propagation technology, rapid propagation cutting technology, leaf propagation technology, leaf propagation technology, plant non-test tube cloning technology, but not tissue culture technology). It has low cost and quick results. It can be rapidly propagated all year round, and the cost of each seedling is only a few cents. The red maple tree has an elegant shape, a graceful posture, slender leaves, and bright leaf colors, which is very cute. It is widely planted and has a huge market demand. It has always been a best-seller among garden greening seedlings.

Rapid propagation seedlings of American red maple and Japanese red maple series products bred using fool-proof plant efficient rapid propagation technology:

 

 

 

 

 

Demonstration of the rooting and seedling growth of fig seedlings cultivated by  the fool-proof plant efficient and rapid propagation technology

Fig planting technology has made a new breakthrough. Farmer scientist Luo Caiyi has made fig cutting seedling cultivation simple, efficient and fast. This is the magical charm of Luo Caiyi's fool-proof plant efficient and rapid propagation technology. It can achieve "inserting leaves into the soil to become seedlings", "inserting branches into the soil to become seedlings", "inserting trunks into the soil to become seedlings", and can be propagated all year round. The cost of propagating each seedling is only a few cents. It has made a qualitative leap in fig rapid cutting propagation and seedling cultivation technology.

Figs originated in Arabia and were later introduced to Syria, Turkey, China and other places. They are currently most widely cultivated in the countries along the Mediterranean coast. Figs are one of the earliest fruit tree species cultivated by humans, with a cultivation history of nearly 5,000 years since around 3000 BC. The traditional method of propagating figs is the high-altitude cutting method, which is laborious, time-consuming and inefficient. However, with the fool-proof plant efficient and rapid propagation technology, everything becomes easy and enjoyable.

The picture below shows teacher Luo Caiyi showing you the rooting and seedling growth of fig seedlings bred by his rapid propagation technology:

 

The rapid propagation technology can also be used to propagate the golden leaf Metasequoia glyptostroboides seedlings, which can be done by hard branch cuttings, which is easy and fast;  

The grafting seedling propagation technology of Metasequoia glyptostroboides has been outdated. Now, the fast propagation technology of Metasequoia glyptostroboides can be used to quickly grow seedlings. The success of this method has made the hardwood cutting fast propagation technology of Metasequoia glyptostroboides glyptostroboides a big step forward. Compared with the traditional local grafting method, the fast propagation technology can solve the defects of Metasequoia glyptostroboides ...

Golden leaf Metasequoia is a cultivated variety of Metasequoia that has been developed in recent years. It is a rare relic species in the world. Golden leaf Metasequoia combines colorful leaf appreciation with health care and physiotherapy, setting off a new concept of ecological recuperation in urban landscape gardening plants! Traditional common greening plant materials have a single color and a monotonous greening form, which is far from meeting the color configuration needs of the majority of users and industry insiders in greening projects; when landscape designers configure garden plants, they gradually change from a single green common tree species to a variety of colorful leaf plant varieties. Golden leaf Metasequoia has strong resistance and is easy to manage. It is a rare large-scale colorful leaf tree in urban greening at this stage; in the configuration of garden plants, it can be planted alone for viewing, or it can be planted in rows as street trees. In the square array planting, the golden spire-shaped tree crown shows solemnity and grade. In the configuration of street trees, the neat and uniform golden crown creates a rare scene of the Golden Avenue.

The following picture shows the rooting and seedling formation of the golden leaf Metasequoia fast-propagation seedlings cultivated by Teacher Luo Caiyi using the golden leaf Metasequoia hard branch fast-propagation technology:

 

 

The following picture shows the landscaping effect of Metasequoia glyptostroboides:

 

New breakthrough in Jacaranda seedling cultivation technology: Plant rapid propagation technology saves time, money and costs in cultivating Jacaranda 

Jacaranda is a deciduous tree native to tropical South America (Argentina, Bolivia, Brazil). It is currently introduced for cultivation in Guangdong, Guangxi, southern Yunnan, Hainan, Fujian and other places. In Xichang, the capital of Liangshan Prefecture in Sichuan, you can see Jacaranda used for road beautification, which is very beautiful during the flowering period. As an extremely popular seedling for greening, the cultivation and management techniques of Jacaranda, the survival characteristics of Jacaranda seedlings, the tissue culture and rapid propagation techniques of Jacaranda, the rapid propagation techniques of Jacaranda hardwood and tenderwood cuttings, the morphological characteristics, living habits and reproduction techniques of Jacaranda have always been the subjects of extensive research in the industry.

Chongqing farmer scientist Luo Caiyi successfully cultivated Jacaranda fast-propagation seedlings 

using his original fool-proof plant efficient and fast-propagation technology, as shown in the following pictures:

 

 

New technology for kiwifruit cultivation has been developed. Kiwifruit seedlings cultivated with plant rapid propagation technology are growing well. 

How to quickly propagate kiwifruit seedlings is a big problem that every kiwifruit grower thinks about day and night. Now, the problem has been solved. Kiwifruit seedlings have been successfully bred using kiwifruit softwood cutting rapid propagation technology and hardwood cutting rapid propagation technology. This method is simpler, more efficient and faster than kiwifruit tissue culture technology. Kiwifruit cutting rapid propagation technology will bring good news to kiwifruit growers.

This technology was created by Luo Caiyi, a farmer scientist from Chongqing Tiandi Farm (Chongqing Huaqianshu Flower and Tree Professional Cooperative)

. It can realize "inserting leaves into the soil to turn them into seedlings", "inserting branches into the soil to turn them into seedlings", and "inserting tree trunks into the soil to turn them into seedlings". It can be bred all year round, and the cost of breeding each seedling is only a few cents.

The following pictures show the rooting and seedling formation of the kiwifruit rapid propagation seedlings bred by teacher Luo Caiyi:

 

 

The rapid propagation technology of Chinese toon hard branch cuttings has been successful. 

Friends who are interested in planting Chinese toon trees, breeding Chinese toon seedlings, and cultivating Chinese toon buds quickly and with high yield, please take a look. The effect of using the fool-proof plant rapid propagation technology to breed Chinese toon seedlings is very significant. You only need to insert a few centimeters long Chinese toon branch into the seedbed. After more than ten days of rapid propagation technology, it can take root and become a seedling. The Chinese toon seedlings cultivated with this technology are growing well.

The picture below shows the Chinese toon tree seedlings cultivated by

teacher Luo Caiyi using his fool-proof plant efficient and rapid propagation technology:

 

After a few more months of growth, the seedlings grew wildly and became taller than a person's head, as shown in the picture below:

 

Farmer scientist Luo Caiyi shows you a set of shocking pictures of the rapid propagation of long-branched osmanthus and magnolia seedlings 

Luo Caiyi , a fast-breeding man and farmer scientist, has developed a fool-proof method for efficient and fast plant

propagation: "insert leaves into the soil to make seedlings", "insert branches into the soil to make seedlings", and "insert trunks into the soil to make seedlings". It can be propagated all year round, and the cost of propagating each seedling is only a few cents. This is the most advanced method for plant seedling propagation.

Among them, "inserting branches into the soil to turn them into saplings", how long can branches be inserted into the soil to turn them into saplings? In Teacher Luo Caiyi's plant rapid propagation technology, there is no limit to the length: it can be a 5-8 cm long broken branch, a 20-30 cm long branch, or a 2-3 m tall branch.

So what does it mean to use branches of different lengths as propagation materials? The answer is this: if a 5-8 cm long branch is planted, it will take 10-30 days (depending on the variety) for the rooting to become a seedling of more than 5-8 cm in height; if a 2-3 m long branch is planted, it will take the same amount of time for the rooting to become a seedling of more than 2-3 m in height. This is very powerful, and it greatly speeds up the seedling raising time. Imagine that if you use traditional methods to propagate a 2-3 m tall seedling, it may take 1-2 years (such as sowing seeds), but if you use Professor Luo Caiyi's rapid propagation technology, it only takes 10-30 days.

Of course, whether to use long branches or short branches also needs to be considered, that is, the number of mother plants and the difficulty of obtaining them. If you have very few mother plants, it is cost-effective to use short branches from the perspective of saving propagation materials. However, if you have a lot of mother plants, using long branches for rapid propagation will have obvious advantages.

The following pictures show the rooting and seedling growth of 2-3 meter long sweet-scented osmanthus branches. Imagine that in a nursery that has been in operation for several years, there must be a lot of such long branches. Many of them must be thrown away every year after pruning, right? Don't throw them away in the future. Use our rapid propagation technology to turn them all into treasures.

The following pictures show the rapid propagation of osmanthus long branches and rooting and seedling formation:

 

 

 

The following pictures show the rapid propagation of Magnolia long branches and rooting and seedling formation:

 

 

 

 

 

The rapid propagation technology of jujube tree cuttings has been successfully applied in Chongqing Plant Rapid Propagation Base. Luo Caiyi's rapid propagation technology is amazing.  

 The jujube tree seedlings are bred using their fool-proof plant efficient and rapid propagation technology, that is, just insert a jujube tree branch and the jujube tree seedlings will grow. This technology is also applicable to most fruit tree varieties such as apples, plums, pears, mangoes, walnuts, persimmons, kiwis, peaches, etc.

 

 

Citrus seedlings were successfully propagated using citrus branches, making it possible to turn branches into seedlings by inserting them into the soil. 

 Citrus saplings that are quickly propagated by cuttings of citrus branches. As shown in the following figure:

 

 

After a section of citrus branches is processed by technology and inserted into the seedbed, it can take root and grow into a seedling in more than 20 days. Compared with the traditional citrus seedling breeding technology, the fool-proof plant efficient and rapid propagation technology greatly reduces the seedling breeding cost, increases the yield, shortens the breeding cycle, and can be used for breeding all year round without seasonal restrictions. The cost of breeding each seedling is only a few cents. 

Osmanthus fragrans cuttings rapid propagation technology shows magical effect: flowering two or three years earlier 

The sweet osmanthus is fragrant in August. However, the sweet osmanthus seedlings cultivated by the "idiot-style plant efficient and rapid propagation technology" have already bloomed in the seedling bed. This has to be said to be a miracle, as shown in the following pictures:

 

 

 

 The fool-proof plant rapid propagation technology can make plants bloom and bear fruit in advance. Because this rapid propagation technology is a continuation of the life characteristics of the mother plant, the osmanthus branch cuttings and rapid propagation seedlings that have been inserted into the seedbed for more than 2 months have already bloomed. Compared with the osmanthus seedlings propagated by traditional methods, the flowering time is greatly advanced. The same is true for other plant varieties. 

Loquat seedlings bred  using the fool-proof plant efficient and rapid propagation technology

   Following the success of loquat leaf rapid propagation technology, farmer scientist Luo Caiyi successfully cultivated loquat seedlings using loquat branch cutting rapid propagation technology. Loquat seedlings can be easily and quickly bred using a piece of loquat tender branch, truly realizing "inserting branches into the soil to turn them into seedlings", which is rare. As shown in the following pictures:

 

 

   The following is the rooting situation of the loquat leaf rapid propagation technology that Teacher Luo Caiyi has previously mastered, that is, "inserting leaves into the soil to turn them into seedlings":

 

Demonstration of the results of rapid propagation of Taiwan four-season fruit mulberry seedlings  using the fool-style efficient and rapid propagation technology

Taiwan four-season fruit mulberry (long-fruit mulberry) is a berry of the genus Morus in the Moraceae family, a precious medicinal food and ornamental fruit. This technology is also applicable to the rapid propagation technology of American red maple, magnolia, cedar, white pine, five-needle pine, black pine, arborvitae, beauty plum, arborvitae, magnolia, magnolia, and chinaberry. 

Taiwan Four Seasons Fruit Mulberry is a super high-yield fruit variety introduced from Taiwan. This variety has strong tree vigor, gray-brown bark, thick and strong trunk and main branches, and thin and numerous side branches. This variety grows vigorously and can bloom and bear fruit 3-4 times in a year. The fruit-producing period is mainly in spring, and the yield in autumn is 25% of that in spring. The branches and buds are fat and brown, with a high germination rate. After germination, they will bloom and bear fruit, and then grow leaves. The leaves are small in shape, small in number, slightly thick, and shiny. Mature mulberries are purple-red to purple-black, and the fruit surface is shiny and bright like black pearls. The average single fruit weight is 5.5 grams, the maximum is 10 grams, the fruit length diameter is 4-6 cm, and the fruit cross diameter is 2-3 cm. 

 The rapid propagation experiment was conducted using the hard branches of Taiwan mulberry as propagation materials, and the results were remarkable. The following picture shows the rooting and seedling formation of Luo Caiyi's fast propagation seedlings of Taiwan mulberry hard branches:

The picture below shows an adult plant of the four-season fruit mulberry:

 

Achievements of fast propagation of hard branches of Zanthoxylum bungeanum rooting and seedling formation 

 In addition to being used for the rapid propagation of Zanthoxylum bungeanum seedlings, the fool-proof plant efficient rapid propagation technology can also be used for the rapid propagation of red-leaf peach seedlings, amaranth seedlings, purple-leaf plum seedlings, flat-branched Xunzi seedlings, golden-leaf elm seedlings, sunshine golden-leaf Caryopteris seedlings, golden-edged forsythia seedlings, golden-leaf water wax seedlings, and golden baby daylily seedlings.

    The results of using pepper hardwood branches to quickly breed pepper tree seedlings:

 

 

   Zanthoxylum bungeanum is a deciduous shrub or small tree. It can be planted alone or used as a protective hedge. Its peel can be used as a seasoning, and its aromatic oil can be extracted and used as medicine. Its seeds are edible and can be processed to make soap. Zanthoxylum bungeanum removes the fishy smell of various meats; promotes saliva secretion and increases appetite; and dilates blood vessels, thereby lowering blood pressure. 

The rapid propagation experiment of Sansevieria leaves was successful

In addition to being suitable for the rapid propagation of Sansevieria leaves,

the fool-proof plant efficient rapid propagation technology can also be used for the rapid propagation and cultivation of plant seedlings such as Sophora japonica rapid propagation technology, Fraxinus chinensis rapid propagation technology, Plume tree rapid propagation technology, Koelreuteria paniculata rapid propagation technology, Crape myrtle rapid propagation technology, Acer truncatum rapid propagation technology, Ginkgo rapid propagation technology, Aesculus hippocastanum rapid propagation technology, Japanese cherry rapid propagation technology, Begonia rapid propagation technology, and Hibiscus rapid propagation technology.

In the rapid propagation experiment, the leaves of the Tiger Tail Orchid were cut into nine sections in advance (as shown in Figure 1 below). After technical processing, they were inserted into the seedbed. After a period of cultivation, each leaf section took root and grew into a seedling. What's even more amazing is that each Tiger Tail Orchid segment grew 3-5 seedlings, which is really rare.

Figure 1: The entire leaf of the tiger tail orchid was cut into 9 sections and inserted into the seedbed

Figure 2: The cut leaves of Sansevieria take root and grow into seedlings

Figure 3: Same as the above figure, each section of Sansevieria leaf produces 3-5 Sansevieria seedlings

Tiger tail orchid, also known as tiger skin orchid and brocade orchid, is a plant of the Agavaceae family and the genus Tiger tail orchid. Its variants include golden-edged tiger tail orchid and silver-veined tiger tail orchid. It is native to western and southern Africa. It likes warm and sunny environments. It tolerates semi-shade and is afraid of direct sunlight. It tolerates drought and avoids waterlogging. It can grow in any soil, including heavy clay soil, but sandy soil with good drainage is preferred. It is cultivated in various places for viewing. The leaf fiber is strong and can be used for weaving. Other common cultivated species include golden-edged tiger tail orchid and columnar-leaf tiger tail orchid. The former has golden-yellow leaves, while the latter has cylindrical leaves with longitudinal grooves, which are easy to identify. 

The rapid propagation experiment of European-Chinese hybrid large-fruit hazelnut was successful   

The large-fruited hazelnut hybrid of Ping and Ou was bred by the Liaoning Provincial Economic Forestry Research Institute. The parents are Ping and Ou. It was first selected in 1986 and officially named in 1999. This variety has a moderate tree vigor, an open tree posture, a medium-large crown, and an 8-year-old tree height of 1.89 meters and a crown diameter of 1.78 meters. Its clone seedlings begin to bear fruit 3 years after planting. It has high yield, with multiple fruits in one sequence, and an average of 1.9 fruits per sequence. The average nut yield of an 8-year-old plant is 1.6 kg, and the yield of 667 square meters is 118 kg. The crown projection yield is 474 grams/square meter, and the yield of 667 square meters in the peak fruiting period can reach 237.1 kg. The nuts are oblate, yellow-brown, large, with an average single fruit weight of 2.4 grams, a kernel yield rate of 41%, and full, relatively smooth kernels with good flavor and excellent quality. This variety blooms male and female flowers in mid-March in Dalian, Liaoning Province, sprouts in early April, and leaves fall in early November. The annual growth period is 200 to 210 days. It can withstand low temperatures of -30 degrees Celsius during its dormancy period and can survive the winter normally in Shenyang, Liaoning Province.

The following picture shows the rooting and seedling formation of the European-American hybrid large-fruited hazelnut hardwood cuttings rapid propagation seedlings:

 

 

 

The experiment of rapid propagation (hard branch cutting) of wild mountain grapes in western Hunan was successful 

 The fool-proof plant efficient and rapid propagation technology of inserting leaves into the soil to turn them into seedlings

has once again demonstrated its miraculous effectiveness - the rapid propagation experiment of wild mountain grapes in the high mountains of western Hunan was successfully completed at our base. This experiment used hard and tender branches of wild mountain grapes in the high mountains of western Hunan as propagation materials for rapid propagation, with remarkable results.

The wild grape in western Hunan is one of the few remaining wild grape varieties, and its scientific name is Vitis pubescens. This grape grows in the wild mountains and is not polluted by fertilizers, pesticides, and other human factors. In addition, due to its small size and high acidity, it has long been ignored and has become a delicacy for birds and animals. However, scientific research departments have confirmed that the wild grape in western Hunan contains 18 kinds of amino acids, multiple vitamins, more than 20 kinds of trace elements necessary for the human body, such as strontium and iodine, and SOD anti-aging elements with a content of up to 910 units per gram. It is also the best raw material for making wine, so many places are introducing it in large quantities and planting it on a large scale.

The wild mountain grape mother plant used in this experiment came from Enshi, Hubei.

The following pictures show the rapid propagation and rooting of wild mountain grapes in western Hunan

at the Chongqing Tiandi Farm (Chongqing Huaqianshu Horticultural Farm) Plant High Efficiency and Rapid Propagation Base:

 

 

  

Plant high-efficiency rapid propagation technology achievements display: Crystal grape one leaf one heart rapid propagation technology 

 To breed crystal grape seedlings using this technology, you only need "one leaf, one heart", that is, one leaf with one bud, and insert it into the seedbed. It will take more than 20 days for the seedlings to take root, as shown in the following pictures:

 

 

 

 

 Plant efficient and rapid propagation technology is an innovative plant rapid propagation technology between traditional soil propagation and large-scale tissue culture propagation technology. It uses a leaf, half a leaf , a bud, a branch, or a bowl-thick trunk of a plant, etc., and treats it with TD chemicals and fully computerized automatic management to allow it to take root, germinate, and become a seedling. Generally, plants take root in 4-18 days, reproduce 6-18 generations per year, and the regenerated seedlings are strong, bloom and bear fruit early, and the offspring have no mutation. It is suitable for flowers, trees, fruits, vegetables, medicinal materials, etc., especially for the propagation of new and unique varieties and plants that are difficult to root. Plant efficient and rapid propagation technology is an innovative "plant non-test tube cloning technology" (plant efficient and rapid propagation technology ) based on test tube tissue culture, full light spray seedling cultivation, and fully enclosed seedling cultivation. The technical facilities are simple, practical, easy to learn and easy to operate. Generally, plants can reproduce 400-1000 plants per square meter per batch, and 450,000-650,000 plants per mu can be produced. Annual production can produce 12-40 batches per year, and the yield per mu can reach 4.5-25 million plants. And each seedling costs only a few cents. 

      The application of the fool-style efficient and rapid plant propagation technology in the rapid propagation of yew hard branches and tender branches  . Taking yew as an example, the use of the fool-style efficient and rapid plant propagation technology for the rapid propagation of yew seedlings has obvious benefits.

The yew is a shallow-rooted plant with an inconspicuous taproot and well-developed lateral roots. It is recognized as an endangered natural rare anti-cancer plant in the world. It is an ancient tree species left over from the Quaternary glaciers and has a history of 2.5 million years on Earth. Due to the slow growth rate and poor regeneration ability of yew under natural conditions, there has been no large-scale yew raw material forest base in the world for a long time. China has listed it as a first-level rare and endangered protected plant, and the United Nations has also banned its felling.

The mature plants and branches of Taxus chinensis are shown in the following pictures:

 

 

 

 

Since the regeneration ability of yew is particularly poor, the problem of yew seedling propagation has always been a major problem that troubles the scientific community. Now, with the fool-proof plant efficient and rapid propagation technology, you only need to insert a 8-10 cm long yew branch (hard branch or tender branch) into a special seedbed, and it will take root and grow into a seedling in one month, as shown in the following pictures:

 

 

 

  

A major breakthrough in the rapid propagation of large-branch cuttings of Huanggelan 

Huanggelan (scientific name Huanggelan, also known as Bailan) is an evergreen broad-leaved tree of the genus Michelia in the Magnoliaceae family. It likes to grow in warm places. Because it is not cold-resistant, it is potted in various places in the Yangtze River Basin and overwintered in greenhouses. As the tree age increases, its cold resistance increases. It is now widely planted in subtropical areas. Huanggelan has a strong fragrance and beautiful tree shape. It is a famous ornamental tree species. It is often used as a potted plant, indoors for leaf viewing in winter, and flowers and fragrance in summer. If the tree is older, it can be cultivated outdoors to beautify the garden.

Huang Ge Lan has poor reproduction and regeneration ability, and it is not easy to root and survive by cutting, so it is not often used. Traditional Huang Ge Lan can only be propagated by "earth" methods such as high-altitude layering and grafting.

The fool-proof plant efficient and rapid propagation technology truly realizes "inserting leaves into the soil to turn into seedlings, inserting branches into the soil to turn into seedlings, and inserting trunks into the soil to turn into seedlings." Using this method to propagate yellow gelan seedlings, you only need to insert the yellow gelan branches into a special seedbed, and they will take root and become seedlings in about a month. The survival rate of yellow gelan cuttings using traditional methods is only one in ten thousand, so Teacher Luo Caiyi's rapid propagation technology has been praised by experts as a historic revolution in yellow gelan breeding technology.

Using teacher Luo Caiyi's rapid propagation technology to breed Huang Ge Lan, the large branches of Huang Ge Lan were processed by technology and inserted into the seedlings. After more than 20 days, the following bruise tissue (commonly known as sarcoma) was formed, as shown in the following group of pictures. After continuing to cultivate for a period of time, it can take root and become a seedling, and finally form a complete Huang Ge Lan seedling plant:

 

 

 

 Plant efficient and rapid propagation technology is an innovative plant rapid propagation technology between traditional soil propagation and large-scale tissue culture propagation technology. It uses a leaf, half a leaf , a bud, a branch, or a bowl-thick trunk of a plant, etc., and treats it with TD chemicals and fully computerized automatic management to allow it to take root, germinate, and become a seedling. Generally, plants take root in 4-18 days, reproduce 6-18 generations per year, and the regenerated seedlings are strong, bloom and bear fruit early, and the offspring have no mutation. It is suitable for flowers, trees, fruits, vegetables, medicinal materials, etc., especially for the propagation of new and unique varieties and plants that are difficult to root.
      Plant efficient and rapid propagation technology is an innovative "plant non-test tube cloning technology" (plant efficient and rapid propagation technology ) based on test tube tissue culture, full light spray seedling cultivation, and fully enclosed seedling cultivation. The technical facilities are simple, practical, easy to learn and easy to operate. Generally, plants can reproduce 400-1000 plants per square meter per batch, and 450,000-650,000 plants per mu can be produced. Annual production can produce 12-40 batches per year, and the yield per mu can reach 4.5-25 million plants. And each seedling costs only a few cents. 

Breeding Osmanthus fragrans seedlings  with the efficient and rapid propagation technology of " half leaf "

 The fool-proof plant efficient and rapid propagation technology has truly realized the myth of turning leaves into seedlings by inserting them into the soil. Following the success of leaf rapid propagation technologies such as two leaves with one heart, one leaf with one heart, and one leaf without heart, teacher Luo Caiyi recently announced another good news, the osmanthus half-leaf rapid propagation technology has been a great success. The so-called osmanthus half-leaf is to use half a leaf of osmanthus, which is inserted into the seedbed after special treatment. After about a month, it will take root and become a seedling, as shown in the following pictures:

The picture below shows the Osmanthus fragrans half-leaf rapid propagation seedling bed:

 

The following three pictures

show the rooting of half leaves of osmanthus:

 

 

New technology for tea tree seedling breeding: insert tea tree branches into the soil to turn them into seedlings  

 Tea tree branches can be propagated quickly by cuttings. After processing, insert a 8-10 cm long tea tree branch into the seedbed. It will take about 30 days for the root to grow into a seedling, as shown in the following pictures:

 

 

 

The rapid propagation experiment of Shandong Euonymus variant varieties was successful   

 

This is not an ordinary Euonymus variety, but a variant of Euonymus developed by a retired expert from the Shandong Provincial Department of Science and Technology. The old expert tried every possible way to breed the seedlings of this variety, but failed, and the survival rate of cuttings was almost zero. After the old expert learned about the rapid propagation technology of Chongqing Tiandi Farm farmer scientists Cao Huihua and Luo Caiyi from the Intelligence Department of the Shandong Provincial Department of Science and Technology, he asked Mr. Zhao to come to Chongqing for an inspection, and Mr. Zhao brought two branches of this variety.

The two precious branches came into the hands of teacher Luo Caiyi, who cut them into several sections and began to conduct rapid propagation experiments. The first phase of the experiment was carried out in greenhouse No. 1, and there was no sign of root growth until November 9. Teacher Luo Caiyi changed a method and moved them to greenhouse No. 7 on November 9, using new technology for propagation. In just 20 days, several sections of Euonymus branches grew strong roots and fresh buds grew on the paper strips.

 

This is the magical, fool-proof plant propagation technology that is efficient and fast. 

A demonstration of the rapid propagation technology of Yiye Wuxin 

 The fool-proof plant efficient rapid propagation technology is widely applicable to the rapid propagation technology of large and small boxwood, the rapid propagation technology of fast-growing sycamore, the rapid propagation technology of Sophora japonica, the rapid propagation technology of fast-growing ash, the rapid propagation technology of bayberry, the rapid propagation technology of Hokkaido boxwood, the rapid propagation technology of Jiangsu purple-leaf plum, the rapid propagation technology of walnut seedlings, the rapid propagation technology of ginkgo, and the rapid propagation technology of Acer truncatum.

 The first rapid propagation technology of "one leaf without heart" in China only needs one leaf without petiole and bud at the connection of branches and trunks, and it can grow into a strong sapling with well-developed roots. Dr. Yao from Southwest University gave a high evaluation after visiting the technical achievements of Professor Luo Caiyi, praising it as a true "first in China". 

 

  

 Luo Caiyi's 1/2 leaf rapid propagation technology is a success 

Following the rapid propagation technology of golden weeping willow, rose, bamboo, cedar, magnolia, cypress, crape myrtle, osmanthus fragrans, boxwood, fraxinus, locust, cotinus, laurel, hibiscus and toon, rapid propagation man Luo Caiyi has come up with a new trick. 

Take an ordinary leaf, cut off its upper and lower parts, leaving only the middle part, and use it as a breeding material. Insert it into a special seedling bed. After more than 20 days of cultivation, the lower part of the leaf begins to grow roots and sprouts. After further cultivation, it becomes a thriving sapling. 

Teacher Luo Caiyi is currently researching the rapid propagation technology of 1/3 leaf and 1/4 leaf, and will apply it widely to the fields of seedlings, fruit trees, flowers, medicinal materials, vegetables, etc. Technology creates the future, and Teacher Luo Caiyi's fool-proof plant efficient and rapid propagation technology has unlimited prospects.

 

  

Luo Caiyi's first "two leaves and one heart" plant rapid propagation technology achievement display  

The "two leaves and one heart" rapid propagation technology is one of the core technologies of efficient and rapid plant propagation technology invented by "rapid propagation men" Cao Huihua and Luo Caiyi

. It uses two leaves of plants to quickly take root and grow into seedlings in the greenhouse, truly realizing "leafs inserted into the soil become seedlings." Because the two leaves are connected, it is named "two leaves and one heart" rapid propagation technology. As shown below:

Figure 1

The following results are shown as osmanthus leaves.

After two pieces of osmanthus leaves are treated with TD series agents, they are inserted into the seedbed in the greenhouse. Within a month, they begin to take root and grow into seedlings. Because they are "two leaves", the osmanthus seedlings that grow are also two seedlings connected together. When transplanting to the outdoor nursery, they can be divided into two independent osmanthus seedlings.

This technology is suitable for most seedlings, fruits and vegetables, flowers, and medicinal materials. It greatly improves the reproduction speed of plant seedlings, increases the survival rate (over 99%), and has huge yields (it can be propagated all year round, with an average of a batch of seedlings every 40 days). This is what is widely reported by the media as "leaves inserted into the soil become seedlings", see the following pictures for details:

Figure 2

Figure 3

Analysis of the investment return of high-efficiency and rapid plant propagation technology  with a yield of one million yuan per mu

      1. Technical introduction:
          Cao Huihua and Luo Caiyi's first high-efficiency rapid propagation technology for plants is an innovative plant rapid propagation technology between traditional local propagation and large-scale tissue culture propagation technology. It uses a leaf and a bud of a plant to be treated with TD chemicals and fully managed by a computer to allow it to take root, germinate and become a seedling. Generally, plants take root in 4-18 days, reproduce 6-18 generations per year, and the regenerated seedlings are strong, bloom and bear fruit early, and the offspring have no mutations. It is suitable for flowers, trees, fruits and vegetables, medicinal materials, etc., especially for the propagation of new and unique varieties and plants that are difficult to root.
     2. Investment analysis:
　　     1. Five acres of land (within), according to the current highest price of 1,500 yuan/acre, 7,500 yuan/year. If there is land at home, this item is 0.
　　     2. The tuition fee for studying rapid propagation technology in Chongqing is 12,000 yuan, and the travel expenses are about 1,000 yuan. If you are a local student in Chongqing, this item is 0.
　　     3. We will distribute equipment and medicines to everyone, and this item is 0.
　　     4. To build a greenhouse of 50-100 square meters, the cost is about 400-1000 yuan.
　　     5. Labor, 5 acres of land, one full-time, two temporary workers if necessary.
    3. Profit analysis:
　　    Based on the minimum density of 200 plants per square meter, one acre of land can breed 133,200 plants in one phase. Assuming one phase is 40 days, 9 phases can be bred in a year, a total of 1,198,800 plants. Even if 200,000 plants die, there are still 1 million plants. Calculated at 1 yuan per plant, there is still an income of 1 million yuan. Of course, this is only the price of selling seedlings. There are other profit models, such as cultivating seedlings for other nurseries, such as potting and selling, etc.
     4. Seedling cost: less than 3 cents per plant, which can be ignored. 

A new breakthrough in the rapid propagation of sweet osmanthus, with seedlings growing to 80 cm in height in 28 days 

   As we all know, osmanthus is one of the seedlings that is extremely difficult to root, and the survival rate of traditional cuttings is very low. Chongqing Tiandi Farm recently reported good news. After the efforts of teachers Cao Huihua and Luo Caiyi, the rapid propagation technology of osmanthus has made a major breakthrough. After the original rapid propagation technologies of osmanthus "two leaves and one heart", "one leaf and one heart", "one leaf without heart", and " half leaf " have matured, the cutting of osmanthus shoots has made a revolutionary breakthrough. Using this new technology for cutting of osmanthus shoots, osmanthus shoots with a length of 80-100 cm can take root and become seedlings within 28 days, and the survival rate is above 99%. As shown in the figure below:

   The osmanthus seedlings shown in this picture were planted on August 3 and the photo was taken on August 30. In 28 days, this 80-centimeter-tall osmanthus seedling has grown into a mature seedling and can be transplanted.

   The picture below is a close-up of the roots of the osmanthus seedling:

 

    The success of this technology has greatly accelerated the reproduction and growth of osmanthus seedlings. Currently, no other technology can achieve the same effect as this method. It is a revolutionary innovation.

   The picture below shows the rapid propagation technology of sweet osmanthus using the same method. It is also a young osmanthus branch cutting, and the seedling height is about 15 cm.

The cuttings were taken on July 31st, and the photos were taken on August 30th. The root system was already very developed.